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In this book, meshes and networks formed out of multiwalled carbon
nanotubes are investigated and analyzed, including their use in
niche applications such as electro-optic devices, advanced
mechanical, thermal and electrical property enhancement, and gene
editing. Different properties of multi-walled carbon nanotubes,
including random network formation, ordering the meshes and
networks by mechanical agitation and application of an external
field, using crystallization and cross-linking induced phase
separation in homopolymers-CNT composites are discussed with
theoretical analysis. The book is aimed at researchers and graduate
students in Electrical Engineering; Materials Science and
Engineering; Chemical Engineering and Nanotechnology, Electronic
circuit design, manufacturing, and characterization.
A fresh and innovative technology is currently being recognized as
a viable replacement for batteries. Research in the field of
supercapacitors, as well as in the area of ceramic materials and
their application to supercapacitor development, has spawned
Nanostructured Ceramic Oxides for Supercapacitor Applications.
Featuring key contributions from well-established experts, this
book highlights the field of high-energy and power storage devices,
and considers the potential of nanostructured ceramic oxides for
supercapacitors. It explores the role of different ceramic oxide
systems and their surface nano-architecture in governing the
efficacy of a supercapacitor, and presents a detailed understanding
of the basic design and science associated with nanostructured
ceramic oxide-based supercapacitors. It examines the history and
development of this promising energy system, covering the
fundamentals, science, and problems associated with this swiftly
emerging field. The book also looks extensively into different
measurement techniques that can evaluate the performance of this
device. Presents an overview of a given field with examples chosen
primarily for their educational purpose Provides exhaustive
references at the end of each chapter Fits the background of
various science and engineering disciplines Contains detailed
mathematical analyses Each chapter includes several simple,
well-illustrated equations and schematic diagrams to augment the
research topics and help the reader grasp the subject. Background
theories and techniques are introduced early on, leading to the
evolution of the field of nanostructured ceramic oxide--based
supercapacitors. Nanostructured Ceramic Oxides for Supercapacitor
Applications chronicles significant strides in device development,
and benefits seniors and graduate students studying physics,
electrical and computer engineering, chemistry, mechanical
engineering, materials science, and nanotechnology.
A fresh and innovative technology is currently being recognized as
a viable replacement for batteries. Research in the field of
supercapacitors, as well as in the area of ceramic materials and
their application to supercapacitor development, has spawned
Nanostructured Ceramic Oxides for Supercapacitor Applications.
Featuring key contributions from well-established experts, this
book highlights the field of high-energy and power storage devices,
and considers the potential of nanostructured ceramic oxides for
supercapacitors. It explores the role of different ceramic oxide
systems and their surface nano-architecture in governing the
efficacy of a supercapacitor, and presents a detailed understanding
of the basic design and science associated with nanostructured
ceramic oxide-based supercapacitors. It examines the history and
development of this promising energy system, covering the
fundamentals, science, and problems associated with this swiftly
emerging field. The book also looks extensively into different
measurement techniques that can evaluate the performance of this
device. Presents an overview of a given field with examples chosen
primarily for their educational purpose Provides exhaustive
references at the end of each chapter Fits the background of
various science and engineering disciplines Contains detailed
mathematical analyses Each chapter includes several simple,
well-illustrated equations and schematic diagrams to augment the
research topics and help the reader grasp the subject. Background
theories and techniques are introduced early on, leading to the
evolution of the field of nanostructured ceramic oxide--based
supercapacitors. Nanostructured Ceramic Oxides for Supercapacitor
Applications chronicles significant strides in device development,
and benefits seniors and graduate students studying physics,
electrical and computer engineering, chemistry, mechanical
engineering, materials science, and nanotechnology.
Nanofluids are solid-liquid composite material consisting of solid
nanoparticles suspended in liquid with enhanced thermal properties.
This book introduces basic fluid mechanics, conduction and
convection in fluids, along with nanomaterials for nanofluids,
property characterization, and outline applications of nanofluids
in solar technology, machining and other special applications.
Recent experiments on nanofluids have indicated significant
increase in thermal conductivity compared with liquids without
nanoparticles or larger particles, strong temperature dependence of
thermal conductivity, and significant increase in critical heat
flux in boiling heat transfer, all of which are covered in the
book. Key Features Exclusive title focusing on niche engineering
applications of nanofluids Contains high technical content
especially in the areas of magnetic nanofluids and dilute oxide
based nanofluids Feature examples from research applications such
as solar technology and heat pipes Addresses heat transfer and
thermodynamic features such as efficiency and work with
mathematical rigor Focused in content with precise technical
definitions and treatment
In this book, meshes and networks formed out of multiwalled carbon
nanotubes are investigated and analyzed, including their use in
niche applications such as electro-optic devices, advanced
mechanical, thermal and electrical property enhancement, and gene
editing. Different properties of multi-walled carbon nanotubes,
including random network formation, ordering the meshes and
networks by mechanical agitation and application of an external
field, using crystallization and cross-linking induced phase
separation in homopolymers-CNT composites are discussed with
theoretical analysis. The book is aimed at researchers and graduate
students in Electrical Engineering; Materials Science and
Engineering; Chemical Engineering and Nanotechnology, Electronic
circuit design, manufacturing, and characterization.
Nanofluids are solid-liquid composite material consisting of solid
nanoparticles suspended in liquid with enhanced thermal properties.
This book introduces basic fluid mechanics, conduction and
convection in fluids, along with nanomaterials for nanofluids,
property characterization, and outline applications of nanofluids
in solar technology, machining and other special applications.
Recent experiments on nanofluids have indicated significant
increase in thermal conductivity compared with liquids without
nanoparticles or larger particles, strong temperature dependence of
thermal conductivity, and significant increase in critical heat
flux in boiling heat transfer, all of which are covered in the
book. Key Features Exclusive title focusing on niche engineering
applications of nanofluids Contains high technical content
especially in the areas of magnetic nanofluids and dilute oxide
based nanofluids Feature examples from research applications such
as solar technology and heat pipes Addresses heat transfer and
thermodynamic features such as efficiency and work with
mathematical rigor Focused in content with precise technical
definitions and treatment
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